(EBook PDF) Advanced PEDOT Thermoelectric Materials 1st edition by Fengxing Jiang, CongCong Liu, JingKun Xu 0128232277 9780128232279 full chapters

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Product details:

ISBN-10 :  0128232277 

ISBN-13 : 9780128232279

Author: Fengxing Jiang, CongCong Liu, JingKun Xu 

PEDOT is currently the most widely used polymeric material in research and development. Over the past 10 years, PEDOT has been investigated for potential organic thermoelectric applications because of its superior thermoelectric and mechanical properties compared with other conductive polymers. However, many challenges remain to be solved before it is translated into key technologies.

Advanced PEDOT Thermoelectric Materials summarizes current progress and the challenges of PEDOT thermoelectric materials, while clarifying directions for future development. This book provides a comprehensive overview of chemical, physical, and technical information about this organic thermoelectric polymer. The authors also give details about the theoretical basis of PEDOT, including preparation and characterization, and its development as a high-performance thermoelectric material.

 

Advanced PEDOT Thermoelectric Materials 1st Table of contents:

Chapter 1. Short history of thermoelectric conjugated PEDOT development
1.1. Introduction
1.2. Evolution of thermoelectric conjugated polymers
1.3. Typical thermoelectric conjugated polymers
1.4. Advantages of PEDOT
1.5. Thermoelectric PEDOT/PEDOT:PSS
1.6. Concluding remarks
Chapter 2. PEDOT preparation, morphology, and electronic structure
2.1. Introduction
2.2. Precursor synthesis
2.3. Polymerization methods
2.4. Fabrication techniques for nano-/micro-PEDOT-based thin-film materials
2.5. Morphology structure
2.6. Electronic states
2.7. Concluding remarks
Chapter 3. Thermoelectric properties of PEDOTs
3.1. Introduction
3.2. From insulator to semimetal
3.3. Thermoelectric power factor
3.4. Thermal conductivity
3.5. Thermoelectric figure of merit
3.6. Concluding remarks
Chapter 4. Thermoelectric transport and PEDOT dependence
4.1. Introduction
4.2. Thermoelectric transport theory
4.3. Band structure
4.4. Density of states
4.5. Thermoelectric performance dependence
4.6. Concluding remarks
Chapter 5. Optimizing the thermoelectric performance of PEDOTs
5.1. Introduction
5.2. Doping and dedoping
5.3. Low dimensionality
5.4. Crystal structure
5.5. Phonon scattering
5.6. Molecular conformation
5.7. Posttreatment
5.8. Concluding remarks
Chapter 6. Thermoelectric PEDOTs: Derivatives, analogs, and copolymers
6.1. Introduction
6.2. Derivatives
6.3. Analogs
6.4. Copolymers
6.5. Concluding remarks
Chapter 7. PEDOT-based thermoelectric nanocomposites/hybrids
7.1. Introduction
7.2. Thermoelectric properties of PEDOT/inorganic nanocrystals and composites
7.3. Concluding remarks
Chapter 8. Thermoelectric PEDOT measurement techniques
8.1. Introduction
8.2. Electrical conductivity
8.3. Seebeck coefficient
8.4. Thermal conductivity
8.5. Carrier density and mobility
8.6. Concluding remarks
Chapter 9. Flexible and wearable thermoelectric PEDOT devices
9.1. Introduction
9.2. Thermoelectric film
9.3. Thermoelectric fiber
9.4. Thermoelectric module
9.5. Concluding remarks
Chapter 10. Challenges and perspectives

 

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Advanced,Thermoelectric Materials,Fengxing Jiang,CongCong Liu,JingKun Xu